Bright GFP with subnanosecond fluorescence lifetime

Autor:	Anastasia V. Mamontova, Konstantin A. Lukyanov, Alexander P. Savitsky, Ilya D. Solovyev, Alexander М. Shakhov, Alexey M. Bogdanov
Jazyk:	angličtina
Rok vydání:	2018
Předmět:	0301 basic medicine Brightness Fluorescence-lifetime imaging microscopy Materials science Time Factors Green Fluorescent Proteins lcsh:Medicine Article Fluorescence Green fluorescent protein 03 medical and health sciences Electron transfer Nuclear magnetic resonance Microscopy Radiative transfer Humans lcsh:Science Multidisciplinary 030102 biochemistry & molecular biology Optical Imaging lcsh:R 030104 developmental biology Microscopy Fluorescence Excited state Mutation Mutagenesis Site-Directed lcsh:Q Directed Molecular Evolution HeLa Cells
Zdroj:	Scientific Reports, Vol 8, Iss 1, Pp 1-5 (2018) Scientific Reports
ISSN:	2045-2322
DOI:	10.1038/s41598-018-31687-w
Popis:	Fluorescence lifetime imaging microscopy (FLIM) measures fluorescence decay rate at every pixel of an image. FLIM can separate probes of the same color but different fluorescence lifetimes (FL), thus it is a promising approach for multiparameter imaging. However, available GFP-like fluorescent proteins (FP) possess a narrow range of FLs (commonly, 2.3–3.5 ns) which limits their applicability for multiparameter FLIM. Here we report a new FP probe showing both subnanosecond fluorescence lifetime and exceptional fluorescence brightness (80% of EGFP). To design this probe we applied semi-rational amino acid substitutions selection. Critical positions (Thr65, Tyr145, Phe165) were altered based on previously reported effect on FL or excited state electron transfer. The resulting EGFP triple mutant, BrUSLEE (Bright Ultimately Short Lifetime Enhanced Emitter), allows for both reliable detection of the probe and recording FL signal clearly distinguishable from that of the spectrally similar commonly used GFPs. We demonstrated high performance of this probe in multiparameter FLIM experiment. We suggest that amino acid substitutions described here lead to a significant shift in radiative and non-radiative excited state processes equilibrium.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::c2a4292b3626bf13768a42fdd80339d5 http://link.springer.com/article/10.1038/s41598-018-31687-w Zobrazit plný text záznamu Plný text ve formátu PDF Plný text ve formátu HTML
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